Abstract
Finding an ideal sampling design is a crucial stage in detailed soil mapping to assure reasonable accuracy of resulting soil property maps. This study aimed to evaluate the influence of sampling designs and sample sizes on the quality of soil apparent electrical conductivity (ECa) maps from an electromagnetic sensor survey. Twenty-six (26) parallel transects were gathered in a 72-ha plot in Southeastern Brazil. Soil ECa measurements using an on-the-go electromagnetic induction sensor were taken every second using sensor vertical orientation. Two approaches were used to reduce the sample size and simulate kriging interpolations of soil ECa. Firstly, the number of transect lines was reduced by increasing the distance between them; thus, 26 transects with 40 m spacing; 13 with 80 m; 7 with 150 m; and 4 with 300 m. Secondly, random point selection and Douglas-Peucker algorithms were used to derive four reduced datasets by removing 25, 50, 75, and 95% of the points from the ECa survey dataset. Soil ECa was interpolated at 5 m output spatial resolution using ordinary kriging and the four datasets from each simulation (a total of twelve datasets). Map uncertainty was assessed by root mean square error and mean error metrics from 400 random samples previously selected for external map validation. Maps were evaluated on their uncertainty and spatial structure of variation. The transect elimination approach showed that maps produced with transect spacing up to 150 m could preserve the spatial structure of ECa variations. Douglas-Peucker results showed lower nugget values than random point simulations for all selected sample densities, except for a 95% point reduction. The soil ECa maps derived from the 75% reduced dataset (by random sampling or Douglas-Peucker) or from 13 transect lines (80 m spacing) showed reasonable accuracy (RMSE of validation circa 0.7) relative to the map interpolated from all survey points (RMSE of 0.5), suggesting that transect spacing of 80 m and reading intervals greater than one second can be used for improving the efficiency of on-the-go soil ECa surveys.
Highlights
Sampling design is fundamental in research and monitoring of natural resources
Specific objectives are addressed by considering: four transect spacing subsets; four sampling density subsets using the random point and four using the Douglas-Peucker selection algorithms; and kriging interpolations evaluated by a standard external validation subset for mean error (ME) and root mean square error (RMSE) indexes
Descriptive statistics summarizing soil electrical conductivity (ECa) datasets for different distances between transect lines are presented in Table 2, along with the ECa external validation subset
Summary
Sampling design is fundamental in research and monitoring of natural resources. Proximal soil sensing (PSS) technology is currently available to produce soil attribute maps in high spatial resolution, aiming to support sustainable variable rate input management in precision agriculture [1,2].optimal sampling designs using continuous PSS surveys are still lacking the definitionSoil Syst. 2020, 4, 56; doi:10.3390/soilsystems4030056 www.mdpi.com/journal/soilsystemsSoil Syst. 2020, 4, 56 of operational standards, potentially compromising map uncertainty evaluations. Proximal soil sensing (PSS) technology is currently available to produce soil attribute maps in high spatial resolution, aiming to support sustainable variable rate input management in precision agriculture [1,2]. Along with the spatial distribution due to the distance between survey track lines, the sample density in each transect line may affect output map accuracy. These are fundamental parameters in sampling design for detailed soil attribute mapping that can affect efficient use of the so-called on-the-go PSS technology [3]. Optimal transect spacing frameworks for soil sensing are not new [4,5,6], recent works show that methodological research is still need on customized approaches according to specific landscape, crop type, soil management, survey strategy, sensor type, and target variable [7,8]
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